US11787143B2 - Hot press cushioning material - Google Patents

Hot press cushioning material Download PDF

Info

Publication number: US11787143B2
Authority: US; United States
Prior art keywords: heat resistant; face; base material; material layer; elastic body
Prior art date: 2018-10-05
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Active, expires 2040-05-07

Application number

US17/281,483

Other languages

English (en)

Other versions

US20210402726A1 (en

Inventor

Takamitsu Ozeki

Akira Yoshida

Shuhei KOUNO

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Yamauchi Corp

Original Assignee

Yamauchi Corp

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

2018-10-05

Filing date

2019-09-30

Publication date

2023-10-17

2019-09-30 Application filed by Yamauchi Corp filed Critical Yamauchi Corp

2021-03-30 Assigned to YAMAUCHI CORP. reassignment YAMAUCHI CORP. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: KOUNO, SHUNHEI, OZEKI, TAKAMITSU, YOSHIDA, AKIRA

2021-12-30 Publication of US20210402726A1 publication Critical patent/US20210402726A1/en

2023-10-17 Application granted granted Critical

2023-10-17 Publication of US11787143B2 publication Critical patent/US11787143B2/en

Status Active legal-status Critical Current

2040-05-07 Adjusted expiration legal-status Critical

Links

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Images

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- B32B2457/00—Electrical equipment
- B32B2457/08—PCBs, i.e. printed circuit boards
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B2457/00—Electrical equipment
- B32B2457/20—Displays, e.g. liquid crystal displays, plasma displays
- B32B2457/202—LCD, i.e. liquid crystal displays

Definitions

the present invention relates to hot press cushioning materials. More particularly, the present invention relates to hot press cushioning materials that are used when press forming or thermocompression bonding an intended product in the process of manufacturing a precision equipment component (hereinafter referred to as a “laminate” in the present invention) such as a printed circuit board like a copper clad laminate, a flexible printed circuit board, or a multilayer board, an IC card, a liquid crystal display panel, or a ceramic laminate.
a precision equipment component hereinafter referred to as a “laminate” in the present invention
a printed circuit board like a copper clad laminate, a flexible printed circuit board, or a multilayer board, an IC card, a liquid crystal display panel, or a ceramic laminate.
a laminate material 52 that is an object to be pressed is placed between heating platens 51 that are heating and pressing means, and a certain pressure and heat are applied to the laminate material 52 in a press forming or thermocompression bonding process.
hot press is performed with a flat plate-like cushioning material 1 interposed between each heating platen 51 and the laminate material 52 .
a mirror plate 54 is interposed between the laminate material 52 and each cushioning material.
cushioning material 1 General characteristics required for the cushioning material 1 include: cushioning properties that absorb unevenness of the heating platen 51 and the laminate material 52 ; in-plane uniformity for uniformly transferring heat and pressure from the heating platen 51 to the entire press surface of the laminate material 52 ; heat transfer properties for efficiently transferring heat from the heating platen 51 to the laminate material 52 ; and heat resistance high enough to withstand the press temperature.
a hot press cushioning material in the form of a plate is cut into a predetermined shape and size, but its cut end face is not subjected to any treatment and is exposed as it is. Accordingly, fiber fraying or fuzzing may occur on the outer end face of the cushioning material as the end face of the cushioning material is rubbed when the cushioning material is placed at a predetermined position or due to the compressive force or impact force that is applied to the cushioning material during use. Fine fibers thus came off may adhere to the surface of an object to be pressed.
Patent Literature 1 Japanese Unexamined Patent Publication No. 2009-741 discloses a technique for preventing fibers from coming off from the end face of a hot press cushioning material by covering the end face of a laminated body with a heat resistant covering material.
coming-off of fibers from the end face of the cushioning material cannot be sufficiently prevented by merely attaching the covering material to the end face because the covering material easily peels off from the end face of the cushioning material due to an impact force etc. that is applied to the cushioning material during use.
Patent Literature 2 Japanese Unexamined Patent Publication No. 2014-87999.
Patent Literature 2 discloses preventing coming-off of fibers from the end face of a hot press cushioning material by impregnating the end face with a heat resistant elastic material.
a stack of the cushioning materials 1 and the laminate material 52 is conveyed in a conveying direction B and is aligned lastly, as shown in FIG. 10 ( b ) .
alignment pins 53 shown by dashed lines stand up to apply an impact to the end faces (positions A) of the cushioning materials 1 . Since the cushioning materials 1 are usually used repeatedly, an impact is repeatedly applied to substantially the same end faces (positions A) of the cushioning materials 1 .
Patent Literature 1 Japanese Unexamined Patent Publication No. 2009-741
Patent Literature 2 Japanese Unexamined Patent Publication No. 2014-87999
Patent Literature 2 proposes preventing coming-off of fibers from the end face of a cushioning material by impregnating the end face with a heat resistant elastic material.
the alignment pins 53 repeatedly apply an impact to the end faces (positions A) as shown in FIG. 10 ( b )
fibers that are present near the end faces of the cushioning materials may be exposed and the exposed fibers may come off.
the present invention was made to solve the above problem, and it is an object of the present invention to provide a hot press cushioning material capable of sufficiently preventing coming-off of fibers from the end face of the cushioning material.
a hot press cushioning material includes: a base material layer that is in a form of a plate and that contains fibers; and an end face seal covering an outer end face of the base material layer.
the end face seal includes a heat resistant elastic body that having penetrated the outer end face of the base material layer and a heat resistant resin attached to an outer surface of the heat resistant elastic body.
the heat resistant elastic body includes a first portion having penetrated the base material layer inward from the outer end face and a second portion that is located on an outer surface side of the first portion and that does not penetrate the base material layer.
the first portion of the heat resistant elastic body has a penetration depth of 10 ⁇ m or more
the second portion sandwiched between the first portion and the heat resistant resin has a thickness of 10 ⁇ m or more.
a surface layer is provided on front and back surfaces of the base material layer, and the first portion of the heat resistant elastic body has penetrated the base material layer sandwiched between the surface layers inward from the outer end face.
the second portion of the heat resistant elastic body covers outer end faces of the surface layers.
the heat resistant elastic body contains one kind of rubber or a mixture of two or more kind of rubbers selected from the group consisting of fluororubber, EPM, EPDM, hydrogenated nitrile rubber, silicone rubber, acrylic rubber, and butyl rubber.
the heat resistant resin contains at least one resin selected from the group consisting of fluororesin, polyimide resin, polyamide resin, PPS resin, PET resin, polyurethane resin, polypropylene resin, and polyethylene resin.
the heat resistant elastic body is fluororubber, and the heat resistant resin is fluororesin.
a method for manufacturing a hot press cushioning material includes: a step of preparing a base material layer that is in a form of a plate and that contains fibers; a step of preparing an end face seal material including a heat resistant elastic body that penetrates an outer end face of the base material layer and a heat resistant resin attached to an outer surface of the heat resistant elastic body; and a covering step of attaching the end face seal material to the outer end face of the base material layer to cover the outer end face of the base material layer.
the covering step includes a thermocompression bonding step of thermocompression bonding the heat resistant elastic body of the end face seal material and the outer end face of the base material layer so that the end face seal material covers the outer end face of the base material layer, and a vulcanization step of vulcanizing the heat resistant elastic body of the end face seal material.
the hot press cushioning material of the present invention can sufficiently prevent coming-off of fibers from the end face of the cushioning material.
the heat resistant elastic body fills holes and bumps formed on the outer end face and enters fibers that are present near the outer end face and is cured. This provides an anchor effect on the fibers. Moreover, since the outer surface of the heat resistant elastic body is covered by the heat resistant resin, coming-off of the fibers from the outer end face of the base material layer can be prevented even when an impact is applied to the outer end face.
the heat resistant elastic body includes the first portion having penetrated the base material layer from the outer end face of the base material layer and the second portion that is located on the outer surface side of the first portion and that does not penetrate the base material layer, the second portion absorbs an impact that is applied to the outer end face by the elastic force of the second portion. The resistance to the impact that is applied to the outer surface side is thus improved.
FIG. 1 shows schematic sections of a hot press cushioning material according to an embodiment of the present invention, where FIG. 1 ( a ) shows the case where a base material layer is a single layer, and FIG. 1 ( b ) shows the case where a plurality of base material layers is stacked.
FIG. 2 shows fibers that are used for the base material layer, where FIG. 2 ( a ) shows bulked yarn and FIG. 2 ( b ) shows ordinary glass fibers (twisted yarn).
FIG. 3 shows images of a portion near the outer end face of the base material layer, where FIG. 3 ( b ) is a five times enlarged image of FIG. 3 ( a ) , and FIG. 3 ( c ) is a ten times enlarged image of FIG. 3 ( a ) .
FIG. 4 is a sectional view of an end face seal material.
FIG. 5 is a flowchart of a method for manufacturing a hot press cushioning material according to an embodiment of the present invention.
FIG. 6 schematically shows a test jig.
FIG. 7 shows images of the outer end faces of cushioning materials after a press compression test, where FIG. 7 ( a ) is an image of Example 1, and FIG. 7 ( b ) is an image of Comparative Example 1.
FIG. 8 shows images of the outer end faces of cushioning materials after an impact test, where FIG. 8 ( a ) is an image of Example 1, FIG. 8 ( b ) is an image of Example 2, FIG. 8 ( c ) is an image of Comparative Example 1, FIG. 8 ( d ) is an image of Comparative Example 2, FIG. 8 ( e ) is an image of Comparative Example 3, FIG. 8 ( f ) is an image of Comparative Example 4, and FIG. 8 ( g ) is an image of Comparative Example 5.
FIG. 9 shows images of the outer end faces of cushioning materials after a rubbing test, where FIG. 9 ( a ) is an image of Example 1, FIG. 9 ( b ) is an image of Example 2, FIG. 9 ( c ) is an image of Comparative Example 1, FIG. 9 ( d ) is an image of Comparative Example 2, FIG. 9 ( e ) is an image of Comparative Example 3, FIG. 9 ( f ) is an image of Comparative Example 4, and FIG. 9 ( g ) is an image of Comparative Example 5.
FIG. 10 schematically shows a common embodiment using a hot press cushioning material, where FIG. 10 ( a ) illustrates a common example of using a hot press cushioning material, and FIG. 10 ( b ) illustrates a common process up to hot press.
FIG. 1 ( a ) shows a hot press cushioning material 1 according to an embodiment of the present invention.
the illustrated hot press cushioning material 1 includes a base material layer 11 that is in the form of a plate and that contains fibers, surface layers 13 on the front and back surfaces of the base material layer 11 , and an end face seal 2 covering an outer end face 12 a of the base material layer 11 .
the surface layers 13 are provided mainly in order to provide releasability to the hot press cushioning material 1 .
Each surface layer 13 includes a base 15 such as, e.g., woven fabric, paper, or non-woven fabric and a thin film portion 14 , such as, e.g., heat resistant resin, applied to the surface of the base 15 .
Each surface layer 13 is bonded to the base material layer 11 by, e.g., a fluororubber adhesive 16 .
the outer end face 12 a of the base material layer 11 is flush with outer end faces 12 b of the surface layers 13 .
the base material layer 11 in one embodiment is a fiber-rubber composite material layer composed of woven fabric and rubber with which the woven fabric has been impregnated. Bulked yarn composed of glass fibers is used as either or both of the warp and weft of the woven fabric.
This fiber-rubber composite material layer has internal voids.
the fiber-rubber composite material layer has a thickness of about 0.5 mm to 5 mm and is in the form of a sheet.
FIG. 2 ( a ) shows bulked yarn 31 composed of glass fibers and suitable as bulked yarn that is a constituent material of the base material layer 11 .
the bulked yarn 31 is finished yarn made bulky like wool yarn by opening fibers of single yarn or bulking twisted yarn by air jet texturing.
the bulked yarn 31 can be appropriately impregnated with rubber as the yarn itself has many voids.
FIG. 2 ( b ) shows single yarn or twisted yarn that is ordinary glass fiber yarn 32 .
the woven fabric in the fiber-rubber composite material layer may be woven fabric formed using the bulked yarn 31 as one of the warp and the weft and the ordinary glass fiber yarn 32 as the other, or may be woven fabric formed using the bulked yarn 31 as both the warp and the weft.
the fiber-rubber composite material layer that forms the base material layer 11 includes woven fabric and rubber with which the woven fabric has been impregnated.
the woven fabric is impregnated with the rubber to fill voids in the entire woven fabric so that the volume ratio of the rubber to the fibers forming the woven fabric is 5 to 50%.
the volume ratio is more preferably 5 to 35%.
the voids in the woven fabric are not completely closed by the rubber and the fiber-rubber composite material layer has a certain level of void properties.
the void fraction of the fiber-rubber composite material layer is preferably 20 to 65%, more preferably 25 to 65%.
the rubber with which the woven fabric is impregnated is preferably one or more materials selected from the group consisting of fluororubber, EPM, EPDM, hydrogenated nitrile rubber, silicone rubber, acrylic rubber, and butyl rubber.
FIGS. 3 ( a ) to 3 ( c ) are images of a portion near the outer end face 12 a with the end face seal 2 attached thereto.
FIG. 3 ( b ) is a five times enlarged image of FIG. 3 ( a )
FIG. 3 ( c ) is a ten times enlarged image of FIG. 3 ( a ) .
boundaries are shown by white lines.
the end face seal 2 includes a heat resistant elastic body 23 having penetrated the outer end face 12 a of the base material layer 11 and a heat resistant resin 24 attached to the outer surface of the heat resistant elastic body 23 .
the end face seal 2 covers not only the outer end face 12 a of the base material layer 11 but also the outer end faces 12 b of the surface layers 13 .
the heat resistant elastic body 23 is one kind of rubber or a mixture of two or more kind of rubbers selected from the group consisting of fluororubber, EPM, EPDM, hydrogenated nitrile rubber, silicone rubber, acrylic rubber, and butyl rubber.
the heat resistant elastic body 23 has a first portion 21 having penetrated the base material layer 11 inward from the outer end face 12 a and a second portion 22 that does not penetrate the base material layer 11 .
the first portion 21 and the second portion 22 are preferably made of the same material. The first portion 21 and the second portion 22 can thus be made less likely to peel off.
the first portion 21 penetrates the outer end face 12 a of the base material layer 11 and enters the voids in the outer end face 12 a of the base material layer 11 .
the first portion 21 thus firmly bonds with the base material layer 11 and fix the fibers in the base material layer 11 . This is also shown in FIGS. 3 ( b ) and 3 ( c ) .
the penetration depth of the first portion 21 is 10 ⁇ m or more.
the penetration depth of the first portion 21 is set to 10 ⁇ m or more in order to prevent the end face seal 2 from peeling off from the outer end face 12 a of the base material layer 11 .
the first portion 21 penetrates the base material layer 11 sandwiched between the surface layers 13 inward from the outer end face 12 a.
the second portion 22 serves as a cushion against an impact that is applied to the outer end face 12 a of the base material layer 11 and also serves to connect the first portion 21 and the heat resistant resin 24 .
the thickness of the second portion 22 that is, the thickness of the portion sandwiched between the first portion 21 and the heat resistant resin 24 , is 10 ⁇ m or more.
the thickness of the second portion 22 is set to 10 ⁇ m or more in order to absorb an impact that is applied to the outer end face 12 a .
the second portion 22 covers the outer end faces 12 b that is applied to the surface layers 13 . Since the surface layers 13 do not have voids, the second portion 22 does not penetrate the outer end faces 12 b of the surface layers 13 .
the second portion 22 is therefore attached to the outer end faces 12 b of the surface layers 13 .
the heat resistant resin 24 is attached to the outer surface of the heat resistant elastic body 23 .
the heat resistant resin 24 is, e.g., a film made of heat resistant resin.
the heat resistant resin 24 is at least one resin selected from the group consisting of fluororesin, polyimide resin, polyamide resin, PPS resin, PET resin, polyurethane resin, polypropylene resin, and polyethylene resin.
the thickness of the heat resistant resin 24 is preferably 50 ⁇ m or less, more preferably 25 ⁇ m or more and 50 ⁇ m or less.
the end face seal 2 covering the outer end face 12 a of the base material layer 11 includes the heat resistant elastic body 23 having penetrated the outer end face 12 a of the base material layer 11 and the heat resistant resin 24 attached to the outer surface of the heat resistant elastic body 23 . Since the outer end faces 12 a of the base material layer 11 have holes and bumps, the bonding area between the outer end faces 12 a and the heat resistant elastic body 23 is increased, and adhesion strength is improved. The outer end faces 12 a of the base material layer 11 and the heat resistant elastic body 23 are bonded by the anchor effect that is provided as the heat resistant elastic body 23 fills the holes and bumps on the outer end faces 12 a and is cured. The adhesion strength is therefore further improved. Moreover, since the heat resistant resin 24 covers the outer surface of the heat resistant elastic body 23 , coming-off of fibers can be prevented even when an impact is repeatedly applied to the outer end face 12 a.
the heat resistant elastic body 23 of the end face seal 2 includes the first portion 21 having penetrated the base material layer 11 inward from the outer end face 12 a and the second portion 22 that is located on the outer surface side of the first portion 21 and that does not penetrate the base material layer 11 .
the end face seal 2 and the base material layer 11 are thus more firmly bonded by the anchor effect between the outer end face 12 a of the base material layer 11 and the first portion 21 .
resistance to an impact that is applied to the outer end face 12 a is improved due to the elasticity of the second portion 22 .
the stacked structure of the hot press cushioning material 1 can be in various forms.
the stacked structure may be a single layer of the base material layer 11 containing fibers, or the surface layer 13 may be provided on the front and back surfaces of the base material layer 11 .
a plurality of base material layers 11 e.g., two to six base material layers 11 , may be stacked and bonded together by, e.g., an adhesive layer including a fluororubber adhesive 16 and a base 17 .
other layer such as a rubber layer or a reinforcing cloth layer may be interposed between the base material layers 11 (not shown).
an end face seal material 2 a before being attached to the outer end face 12 a of the base material layer 11 namely an unused end face seal material 2 a
the release film 25 is, e.g., a PET film coated with silicone on one side.
the base material layer 11 and the first portion 21 have an appropriate amount of voids.
the hot press cushioning material 1 therefore has excellent cushioning properties and can uniformly apply heat and pressure to a laminate material during hot press.
the base material layer 11 that is in the form of a plate and that contains such fibers as described above is prepared (step S 10 ).
step S 10 woven fabric is impregnated with a rubber solution and is dried to remove the solution, and a vulcanization process is performed.
a plurality of base material layers 11 may be stacked with the adhesive layer, which includes the fluororubber adhesive 16 and the base 17 , interposed therebetween, and the surface layer 13 may be provided on the front and back surfaces of the stack.
the surface layer 13 may be provided on the front and back surfaces of the base material layer 11 .
the surface layer 13 includes the thin film portion 14 applied to the base 15 , and is bonded to the base material layer 11 by, e.g., the fluororubber adhesive 16 .
step S 20 the end face seal material 2 a for covering the outer end face 12 a of the base material layer 11 is prepared.
the heat resistant elastic body 23 , the heat resistant resin 24 , and the release film 25 are prepared in order to manufacture the end face seal material 2 a shown in FIG. 4 .
step S 20 the silicone-coated surface of the release film 25 is coated with the heat resistant elastic body 23 and is dried to produce an unvulcanized heat resistant elastic body 23 .
the heat resistant resin 24 and this heat resistant elastic body 23 are laminated together.
the end face seal material 2 a including the release film 25 is thus prepared.
step S 20 in order to increase bonding strength between the heat resistant resin 24 and the heat resistant elastic body 23 , it is preferable to perform surface treatment on the surface of the heat resistant resin 24 that contacts the heat resistant elastic body 23 such as, e.g., corona treatment, plasma treatment, or priming.
surface treatment on the surface of the heat resistant resin 24 that contacts the heat resistant elastic body 23 such as, e.g., corona treatment, plasma treatment, or priming.
a covering step is performed in which the end face seal material 2 a is attached to the outer end face 12 a of the vulcanized base material layer 11 to cover the outer end face 12 a of the base material layer (step S 30 ).
this step (step S 30 ) includes: a thermocompression bonding step (step S 31 ) of thermocompression bonding the heat resistant elastic body 23 of the end face seal material 2 a and the outer end face 12 a of the base material layer 11 so that the end face seal material 2 a covers the outer end face 12 a of the base material layer 11 ; and a vulcanization step (step S 32 ) of vulcanizing the heat resistant elastic body 23 of the end face seal material 2 a .
the end face seal material 2 a also covers the outer end faces 12 b of the surface layers 13 .
thermocompression bonding step (step S 31 ) the release film 25 of the prepared end face seal material 2 a is peeled off, and the heat resistant elastic body 23 of the end face seal material 2 a is attached to the outer end face 12 a of the base material layer 11 .
This step (step S 31 ) is performed using a heating and pressing terminal such as, e.g., an iron or a heat roll.
the heat resistant elastic body 23 is thus thermocompression bonded in an unvulcanized state. This allows the heat resistant elastic body 23 to penetrate the voids in the outer end face 12 a of the base material layer 11 . Since the outer end faces 12 b of the surface layers 13 do not have voids, the heat resistant elastic body 23 does not permeate the outer end faces 12 b of the surface layers 13 .
step S 32 the cushioning material 1 having been subjected to thermocompression bonding is placed into a heating furnace and heated at 180° C. or higher for 1 hour to vulcanize and cure the heat resistant elastic body 23 .
the heat resistant elastic body 23 having penetrated the voids in the outer end face 12 a of the base material layer 11 can thus be vulcanized and cured by performing this step under the above conditions. This allows the end face seal material 2 a to be firmly attached to the outer end face 12 a of the base material layer 11 .
the method for manufacturing the hot press cushioning material 1 by attaching the end face seal material 2 a to the base material layer 11 impregnated with a rubber solution is described as an example.
the present invention is not limited to this, and the base material layer 11 may be woven fabric not impregnated with rubber.
the method of the present embodiment includes: the step of preparing the base material layer 11 that is in the form of a plate and that contains fibers (step S 10 ); the step of preparing the end face seal material 2 a including the heat resistant elastic body 23 that penetrates the outer end face 12 a of the base material layer 11 and the heat resistant resin 24 attached to the outer surface of the heat resistant elastic body 23 (step S 20 ); and the covering step of attaching the end face seal material 2 a to the outer end face 12 a of the base material layer 11 to cover the outer end face 12 a of the base material layer 11 (step S 30 ).
the heat resistant resin 24 is attached to the outer end face 12 a of the base material layer 11 by the heat resistant elastic body 23 . Accordingly, the contact area between the outer end faces 12 a of the base material layer 11 and the heat resistant elastic body 23 can be increased, and the end face seal material 2 a can be more firmly attached to the outer end face 12 a of the base material layer 11 . This can prevent contamination with foreign matter due to coming-off of fibers from the base material layer 11 .
the covering step (step S 30 ) includes: the thermocompression bonding step (step S 31 ) of thermocompression bonding the heat resistant elastic body 23 of the end face seal material 2 a and the outer end face 12 a of the base material layer 11 so that the end face seal material 2 a covers the outer end face 12 a of the base material layer 11 ; and the vulcanization step (step S 32 ) of vulcanizing the heat resistant elastic body 23 of the end face seal material 2 a.
the heat resistant elastic body 23 penetrates the voids in the base material layer 11 by the thermocompression bonding step (step S 31 ), whereby the first portion 21 is formed.
the first portion 21 is then cured by the vulcanization step (step S 32 ). This provides the anchor effect and allows the end face seal material 2 a to be firmly attached to the outer end face 12 a of the base material layer 11 .
Table 1 shows the evaluation results of experiments conducted for Examples 1 and 2 and Comparative Examples 1 to 5.
base material layers were prepared (step S 10 ).
the base material layers used were glass woven fabrics using bulked yarn, “T860” (manufactured by UNITIKA LTD.).
the weft of these woven fabrics was bulked yarn produced by bulking twisted yarn of count 305 tex composed of 3,200 E-glass fibers (fiber diameter: 6 ⁇ m), and the warp of these woven fabrics was unbulked twisted yarn of count 135 tex composed of 1,600 E-glass fibers (fiber diameter: 6 ⁇ m).
These woven fabrics were double weave fabrics, and each woven fabric had a weight of 850 g/m 2 , a thickness of 1.02 mm, and a void fraction of 67%.
An unvulcanized fluororubber solution was also prepared by dissolving unvulcanized fluororubber at a predetermined concentration in a solvent of butyl acetate and methyl ketone mixed at a mass ratio of 1:1.
Each glass woven fabric was immersed in the unvulcanized fluororubber solution and was then squeezed by two rolls. Thereafter, each of the resultant glass woven fabrics was sufficiently dried to remove the solvent.
Four of the base material layers thus produced were stacked with an adhesive sheet therebetween, and a surface layer was placed on the upper and lower surfaces of the stack. The resultant stack was bonded together to produce a cushioning material.
an end face seal material was prepared (step S 20 ).
a release film with a thickness of 50 ⁇ m was prepared, and a silicone-coated surface of the release film was coated with fluororubber paint with a viscosity of 10 Pa ⁇ s.
the resultant release film was dried at 120° C. or lower to form an unvulcanized fluororubber layer with a thickness of 100 ⁇ m on the release film.
a fluorine film with a thickness of 50 ⁇ m FEP film NF-0050B1 manufactured by DAIKIN INDUSTRIES, LTD.
the fluorine film used was a fluorine film that had been surface-treated with corona, plasma, primer, etc. so as to facilitate bonding with fluororubber and that had been treated to prevent peeling-off of the film.
the release film of the end face seal material was peeled off, and the resultant end face seal material was attached to the outer end face of the cushioning material.
Thermocompression bonding was then performed by sliding a heating and pressing terminal set to 150° C. under a load of 5 kgf at 1 sec/cm to cause the unvulcanized fluororubber to enter voids in the base material layers of the cushioning material (step S 31 ).
a vulcanization step was performed (step S 32 ). Heat treatment was performed at 180° C. for 1 hour in a heating furnace.
the vulcanization temperature is preferably 180° C. or higher and 230° C. or lower.
the sample thus prepared by the above process was used as Example 1.
Example 2 was the same as Example 1 except that a polyimide film with a thickness of 25 ⁇ m was used instead of the fluorine film with a thickness of 50 ⁇ m.
a method for manufacturing cushioning materials of Comparative Examples 1 to 5 described below was basically similar to the method for producing the cushioning material of Example 1, but the treatment conditions for the outer end face were different from those in Example 1 as shown in Table 1 below.
Comparative Example 1 was a cushioning material whose outer end face had not been subjected to any treatment.
An end face seal material was produced by coating a silicone-coated surface of a release film with a thickness of 50 ⁇ m with unvulcanized fluororubber paint and drying the resultant release film to form an unvulcanized fluororubber layer with a thickness of 100 ⁇ m on the release film.
Thermocompression bonding was then performed by sliding a heating and pressing terminal set to 150° C. over the outer end faces of the base material layers of the cushioning material under a load of 5 kgf at 1 sec/cm.
the unvulcanized fluororubber was thus caused to penetrate fibers in the base material layers of the cushioning material.
the release film was peeled off, and heat treatment was performed in a heating furnace to vulcanize the fluororubber. Comparative Example 2 was thus produced.
the heat treatment conditions were the same as those for Example 1.
Comparative Example 3 was a cushioning material produced by causing fluororubber paint to penetrate the cushioning material from its outer end face and drying and curing the fluororubber paint.
the fluororubber paint used was a mixture of DAI-EL LATEX GLS-213LA and GL200B (curing agent) with a mixing ratio of 20:1.
the viscosity of the fluororubber paint was 0.13 Pa ⁇ s.
the thickness of the portion where the fluororubber paint penetrated was 0.5 mm, and the void fraction of the portion where the fluororubber paint penetrated was 36%.
Comparative Example 4 was a cushioning material with its outer end face coated with silicone resin by applying silicone resin with a viscosity of 20 Pa ⁇ s to the outer end face and drying and curing the silicone resin.
Comparative Example 5 was a cushioning material with its outer end face coated with fluororubber paint by applying fluororubber paint with a viscosity of 11 Pa ⁇ s to the outer end face and drying and curing the fluororubber paint.
Press compression test With a press machine, the cushioning material pressed with 4 MPa in the thickness direction was heated at 230° C. for 60 minutes and then cooled for 10 minutes. The pressure on the cushioning material was then released. This press was repeated 100 times.
a hammer 40 was used which was composed of a jig 41 for a pressing tester and a spherical terminal 42 attached to the jig 41 , the spherical terminal 42 being made of SUS and having a diameter of 10 mm and a height of 2 mm.
Rubbing test The end face of the sample was pressed against sandpaper and was rubbed back and forth over a distance of 10 cm 20 times, namely for 20 double rubs, while applying a pressure of 1 kg/cm 2 .
the sandpaper used was 800 grit sandpaper.
FIG. 7 shows images of the end faces of the cushioning materials after the press compression test
FIG. 8 shows images of the end faces of the cushioning materials after the impact test
FIG. 9 shows images of the end faces of the cushioning materials after the rubbing test.
the vertical and horizontal directions in the description of the evaluation results shown in FIGS. 7 to 9 match the vertical and horizontal directions in the figures.
Example 1 ( FIG. 7 ( a ) ) and Example 2 of the present invention had no problem. That is, no fiber fraying or fuzzing was observed on the outer end face. On the other hand, fiber fraying, fuzz shedding, etc. were observed in Comparative Example 1 ( FIG. 7 ( b ) ). No fiber fraying or fuzzing was observed on the outer end faces of Comparative Examples 2 to 5.
Example 1 ( FIG. 8 ( a ) ) had no problem. That is, no fiber fraying, fuzz shedding, damage to the heat resistant elastic body, etc. were observed.
Example 2 ( FIG. 8 ( b ) ), partial peeling-off of the end face seal was observed on the upper part of the outer end face.
Comparative Example 1 ( FIG. 8 ( c ) ) fibers were exposed on the entire surface, and fiber fraying and fuzz shedding were observed.
Comparative Example 2 ( FIG. 8 ( d ) ), damage to the heat resistant elastic body and fuzz shedding were observed on the lower and middle parts of the outer end face.
Comparative Example 3 ( FIG. 8 ( e ) ), fiber fraying occurred on the upper and lower ends of the outer end face, and fuzz shedding was observed.
Comparative Example 4 ( FIG. 8 ( f ) ), fibers were exposed on the entire surface, and damage and falling-off of the heat resistant elastic body, fiber fraying, and fuzz shedding were observed.
Comparative Example 5 ( FIG. 8 ( g ) ), fibers were exposed on the entire surface, and damage and falling-off of the heat resistant elastic body, fiber fraying, and fuzz shedding were observed.
Example 1 ( FIG. 9 ( a ) ) had no problem, and no fiber fuzzing was observed.
Example 2 FIG. 9 ( b ) ) also had no problem such as fuzz shedding.
Comparative Example 1 ( FIG. 9 ( c ) ) fiber fuzzing occurred on the entire surface, and fiber fraying and fuzz shedding were observed.
Comparative Example 2 ( FIG. 9 ( d ) ), falling-off of the heat resistant elastic body and fiber fuzzing were observed especially on the upper left part and the right part of the outer end face.
Comparative Example 3 ( FIG. 9 ( e ) ), the heat resistant elastic body fell off from the entire surface, and fiber fuzzing was observed.
Comparative Example 4 ( FIG. 9 ( f ) ), falling-off of the heat resistant elastic body and fiber fuzzing were observed especially on the upper and lower parts of the outer end face.
Comparative Example 5 ( FIG. 9 ( g ) ), falling-off of the heat resistant elastic body and fiber fuzzing were observed especially on the upper and lower parts of the outer end face.
hot press cushioning materials were able to be obtained which can prevent fiber fraying and fuzz shedding from the outer end face of the cushioning material even when the cushioning material is locally subjected to a large impact or friction.

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Engineering & Computer Science (AREA)
Mechanical Engineering (AREA)
Textile Engineering (AREA)
Chemical & Material Sciences (AREA)
Composite Materials (AREA)
Laminated Bodies (AREA)
Casting Or Compression Moulding Of Plastics Or The Like (AREA)
Presses And Accessory Devices Thereof (AREA)
Press Drives And Press Lines (AREA)
Moulding By Coating Moulds (AREA)

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JP2018190484A JP7140379B2 (ja)	2018-10-05	2018-10-05	熱プレス用クッション材および熱プレス用クッション材の製造方法
JP2018-190484		2018-10-05
PCT/JP2019/038542 WO2020071322A1 (ja)	2018-10-05	2019-09-30	熱プレス用クッション材および熱プレス用クッション材の製造方法

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EP (1)	EP3862177A4 (ko)
JP (1)	JP7140379B2 (ko)
KR (1)	KR20210069040A (ko)
CN (1)	CN112770898B (ko)
TW (1)	TWI833816B (ko)
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JP7140379B2 (ja)	2022-09-21
EP3862177A4 (en)	2022-06-29
TW202024280A (zh)	2020-07-01
WO2020071322A1 (ja)	2020-04-09
CN112770898A (zh)	2021-05-07
TWI833816B (zh)	2024-03-01
US20210402726A1 (en)	2021-12-30
CN112770898B (zh)	2023-07-28
KR20210069040A (ko)	2021-06-10
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Publication	Publication Date	Title
US10272642B2 (en)	2019-04-30	Hot press cushioning material and manufacturing method thereof
WO2014069355A1 (ja)	2014-05-08	熱プレス用クッション材
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JP6894344B2 (ja)	2021-06-30	熱プレス用クッション材
JP6590740B2 (ja)	2019-10-16	熱プレス用クッション材及びその製造方法
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US11628637B2 (en)	2023-04-18	Hot press cushioning material
JP6677833B2 (ja)	2020-04-08	熱プレス用クッション材
US11787143B2 (en)	2023-10-17	Hot press cushioning material
TWI603841B (zh)	2017-11-01	熱壓製用緩衝材
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